Safety and diagnostic performance of pulmonologists performing electromagnetic guided percutaneous lung biopsy (SPiNperc)

Mallow, Christopher; Lee, Hans C.; Oberg, Catherine L.; Thiboutot, Jeffrey; Akulian, Jason; Burks, Allen Cole; Luna, B.; Benzaquen, Sadia; Batra, Hitesh; Cárdenas-García, José; Toth, Jennifer; Heidecker, Jay; Belanger, Adam R.; McClune, Jason; Osman, Umar; Lakshminarayanan, Venkatesh; Pastis, Nicholas J.; Silvestri, Gerard A.; Chen, Alexander; Yarmus, Lonny

doi:10.1111/resp.13471

Cited by 24 publications

(35 citation statements)

References 21 publications

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“…The SPiN Thoracic Navigation System (Veran Medical Technologies, St. Louis, MO) uses respiratory gating and continuous guidance with tip-tracked instruments. 3 , 27 LungVision (BodyVision Medical Inc., Ramat Ha Sharon, Israel) uses augmented fluoroscopy and dynamic registration tracking. 28 The Lung Suite CBCT system (Philips, Best, The Netherlands) uses live augmented fluoroscopy and position adaptation.…”

Section: Discussionmentioning

confidence: 99%

Electromagnetic Navigation Bronchoscopy With Tomosynthesis-based Visualization and Positional Correction

Pritchett

Bhadra

Mattingley

2020

Journal of Bronchology &Amp; Interventional Pulmonology

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Background: Electromagnetic navigation bronchoscopy (ENB) aids in lung lesion biopsy. However, anatomic divergence between the preprocedural computed tomography (CT) and the actual bronchial anatomy during the procedure can limit localization accuracy. An advanced ENB system has been designed to mitigate CT-to-body divergence using a tomosynthesis-based software algorithm that enhances nodule visibility and allows for intraprocedural local registration. Materials and Methods: A prospective, 2-center study was conducted in subjects with single peripheral lung lesions ≥10 mm to assess localization accuracy of the superDimension navigation system with fluoroscopic navigation technology. Three-dimensional accuracy was confirmed by cone-beam computed tomography. Complications were assessed through 7 days. Results: Fifty subjects were enrolled (25 per site). Lesions were <20 mm in 61.2% (30/49). A bronchus sign was present in 53.1% (26/49). Local registration was completed in 95.9% (47/49). Three-dimensional target overlap (primary endpoint) was achieved in 59.6% (28/47) and 83.0% (39/47) before and after location correction, respectively. Excluding subjects with unevaluable video files, target overlap was achieved 68.3% (28/41) and 95.1% (39/41), respectively. Malignant results were obtained in 53.1% (26/49) by rapid on-site evaluation and 61.2% (30/49) by final pathology of the ENB-aided sample. Diagnostic yield was not evaluated. Procedure-related complications were pneumothorax in 1 subject (no chest tube required) and scant hemoptysis in 3 subjects (no interventions required). Conclusion: ENB with tomosynthesis-based fluoroscopic navigation improved the 3-dimensional convergence between the virtual target and actual lung lesion as confirmed by cone-beam computed tomography. Future studies are necessary to understand the impact of this technology on diagnostic yield.

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Section: Discussionmentioning

confidence: 99%

Electromagnetic Navigation Bronchoscopy With Tomosynthesis-based Visualization and Positional Correction

Pritchett

Bhadra

Mattingley

2020

Journal of Bronchology &Amp; Interventional Pulmonology

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“…We believe a multidisciplinary approach including interventional pulmonologists and thoracic surgeons is crucial to optimize the workup of this group of patients and expedite more invasive diagnostic approaches or therapeutic interventions when needed. -SPiN Perc™ 70-80 12,13 17-21 12,13 Monarch™ 69-77 21,23,24 3.6 23,24 Intuitive Ion™ 79 20,32 0 20,32…”

Section: Other Navigation Platforms and New Technologymentioning

confidence: 99%

Navigational Bronchoscopy with Interventional Pulmonologists and Thoracic Surgeons

Muñoz-Largacha

Batra

Wei

2021

Innovations�(Phila)

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“…EM-guided TTNB basically uses the same principle as ENB, however, it guides the biopsy needle into the target lesion instead of bronchoscopic biopsy tools. [32][33][34] In 2019, the result of a retrospective, multicenter study using EM-guided TTNB was published. This study consisted of seven academic and three community medical centers and the data from 95 participants were analyzed.…”

Section: Novel Guidance Modality: Electromagnetic Guidance Transthoramentioning

confidence: 99%

Transthoracic Needle Biopsy: How to Maximize Diagnostic Accuracy and Minimize Complications

2020

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While the transthoracic needle biopsy (TTNB) was introduced for lung biopsy about 40 years ago, it is still mainstay of pathologic diagnosis in lung cancer, because it is relatively inexpensive and has the advantage of obtaining tissue regardless of tumorbronchus relationship. With several technological advances, clinicians can perform TTNB more safely and accurately. Utilizing ultrasound-guided biopsy for peripheral lesions contacting the pleura and rapid on-site evaluation during the procedure are expected to make up the weakness of TTNB. However, due to the inherent limitations of the percutaneous approach, the incidence of complications such as pneumothorax or bleeding are inevitably higher than those of other lung biopsy techniques. Selecting an appropriate guidance modality and optimal instruments could decrease the complication rate. Thorough understating and reflection of each biopsy modality with elaborate technique are fundamental for maximizing diagnostic accuracy and minimizing the complications.

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Safety and diagnostic performance of pulmonologists performing electromagnetic guided percutaneous lung biopsy (SPiNperc)

Cited by 24 publications

References 21 publications

Electromagnetic Navigation Bronchoscopy With Tomosynthesis-based Visualization and Positional Correction

Electromagnetic Navigation Bronchoscopy With Tomosynthesis-based Visualization and Positional Correction

Navigational Bronchoscopy with Interventional Pulmonologists and Thoracic Surgeons

Transthoracic Needle Biopsy: How to Maximize Diagnostic Accuracy and Minimize Complications

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